R-611.8P_16 Datasheet, PDF(2/4 Page) Recom International Power – 1-2 AMP SIP12 Vertical & Horizontal

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R-611.8P_16 Datasheet, PDF (2/4 Pages) Recom International Power – 1-2 AMP SIP12 Vertical & Horizontal

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INNOLINE

DC/DC-Converter

R-6xxxP_D

Series

Specifications (refer to the standard application circuit, Ta: 25Â°C)

Characteristics

Output Current

Conditions

R-61xxP/D

R-62xxP/D

Min.

Typ.

Max.

0.1A

1.1A

0.2A

2.0A

Output Current Limit

4A

4.5A

5A

Short Circuit Input Current

Vin > 12V

20mA

100mA

Short Circuit Protection

Continuous, automatic recovery

Output Voltage Accuracy

At 100% Load

Â±1%

Â±2%

Line Voltage Regulation (Vin = min. to max. at full load)

Load Regulation (10 to 100% full load)

R-61xxP/D

R-62xxP/D

Vo Ripple & Noise

R-61xxP/D

R-62xxP/D

Transient Response (see note 1)

50% Load Change

Vout Over / Undershoot

Remote ON / OFF (see note 2)

Open or high (Power ON)

2.0V

(positive logic)

Low (Power OFF)

Remote Off Input Current

Remote ON/OFF low level

Max capacitance Load

with normal start-up time, no external diodes

with <1 second start up time + diode protection circuit

0.5%

40mVpp

40mVpp

100us

5%

100ÂµA

0.5%

1.0%

100mVpp

120mVpp

200us

10V

0.8V

200ÂµF

6800ÂµF

Switching Frequency

200kHz

250kHz

300kHz

Quiescent Current

Vin = min. to max. at 0% load

6mA

10mA

Operating Temperature Range

-40Â°C

+85Â°C

Storage Temperature Range

-40Â°C

+125Â°C

Case Material

Non-Conductive Black Plastic

Potting Material

Epoxy (UL94V-0)

internal Power Dissipation

Io x Vo x (1-Efficiency)

1.0W

Package Weight

9g

Packing Quantity

15 pcs per Tube

MTBF (Nominal Vout, 100% load)

} Tamb. = +25Â°C

Tamb. = +71Â°C

Detailed Information see

Application Notes chapter "MTBF"

563 x 10Â³ hours

117 x 10Â³ hours

EN General Safety

Report: SPCLVD 1301028-1

EN60950-1:2006 + A12:2011

Notes:

1. Requires a 100ÂµF electrolytic or tantalum output capacitor for proper operation in all applications (the capacitor to be placed as close as possible to the output pins).

2. ON / OFF pin can be driven by TTL (logic gate), open-collector bipolar transistor or open-drain MOSFET.

3. Output Current vs. Input Voltage (see graph below).

Output Current vs Input Voltage

2

90

85

80

1.2A

60

1

R-61XX

40

20

0

9.0

14

Input Voltage (V)

24 28 32

0

0.5 0.7 1

1.5

Internal Power Dissipation (W)

Max output current calculation:

Internal power dissipation

(1W) = Io x Vo x (1-Efficiency)

Io = 1(W) / Vo x (1-Efficiency)

Example : R-6212P

at Vin = 32VDC

Efficiency = 93% (see âSelection Guideâ table)

Vo = 12VDC

Io = 1W / 12V x (1-0.93) = 1.19A

at Vin = 14VDC

Efficiency = 96% (see âSelection Guideâ table)

Vo = 12Vdc

Io = 1W / 12V x (1-0.96) = 2.08A

I-52

REV: 1/2016

www.recom-power.com

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